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opm-simulators/opm/core/wells/WellsManager.hpp
Bård Skaflestad 6ab31022fc WellsManager: Support NTG and horizontal completions 
This commit extends the feature set of the WellsManager to support
horizontal ("X" and "Y") completions and include the net-to-gross
ratio in the Peaceman index ("Completion Transmissibility Factor,
CTF") of a well completion.  The NTG factor is included if present
in the input deck represented by the "eclipseState".

There are two separate, though related, parts to this commit.  The
first part splits the calculation of Peaceman's "effective radius"
out to a separate utility function, effectiveRadius(), and
generalises WellsManagerDetail::computeWellIndex() to account for
arbitrary directions and NTG factors.  The second part uses
GridPropertyAccess::Compressed<> to extract the NTG vector from the
input if present while providing a fall-back value of 1.0 if no such
vector is available.

Note: We may wish to make the extraction policy configurable at some
point in the future.
2014-08-31 21:24:37 +02:00

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/*
Copyright 2012 SINTEF ICT, Applied Mathematics.
This file is part of the Open Porous Media project (OPM).
OPM is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OPM is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with OPM. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef OPM_WELLSMANAGER_HEADER_INCLUDED
#define OPM_WELLSMANAGER_HEADER_INCLUDED
#include <opm/parser/eclipse/EclipseState/EclipseState.hpp>
#include <opm/core/wells/WellCollection.hpp>
#include <opm/core/wells/WellsGroup.hpp>
#include <opm/parser/eclipse/EclipseState/Schedule/GroupTree.hpp>
#include <opm/core/utility/CompressedPropertyAccess.hpp>
struct Wells;
struct UnstructuredGrid;
namespace Opm
{
struct WellData
{
WellType type;
// WellControlType control;
// double target;
double reference_bhp_depth;
// Opm::InjectionSpecification::InjectorType injected_phase;
int welspecsline;
};
struct PerfData
{
int cell;
double well_index;
};
/// This class manages a Wells struct in the sense that it
/// encapsulates creation and destruction of the wells
/// data structure.
/// The resulting Wells is available through the c_wells() method.
class WellsManager
{
public:
/// Default constructor -- no wells.
WellsManager();
/// Construct from existing wells object.
/// WellsManager is not properly initialised in the sense that the logic to
/// manage control switching does not exist.
///
/// @param[in] W Existing wells object.
explicit WellsManager(struct Wells* W);
/// Construct from input deck and grid.
/// The permeability argument may be zero if the input contain
/// well productivity indices, otherwise it must be given in
/// order to approximate these by the Peaceman formula.
template<class CC, class F2C, class FC>
WellsManager(const Opm::EclipseStateConstPtr eclipseState,
const size_t timeStep,
int num_cells,
const int* global_cell,
const int* cart_dims,
int dimensions,
CC begin_cell_centroids,
const F2C& f2c,
FC begin_face_centroids,
const double* permeability);
WellsManager(const Opm::EclipseStateConstPtr eclipseState,
const size_t timeStep,
const UnstructuredGrid& grid,
const double* permeability);
/// Destructor.
~WellsManager();
/// Does the "deck" define any wells?
bool empty() const;
/// Access the managed Wells.
/// The method is named similarly to c_str() in std::string,
/// to make it clear that we are returning a C-compatible struct.
const Wells* c_wells() const;
/// Access the well group hierarchy.
const WellCollection& wellCollection() const;
/// Checks if each condition is met, applies well controls where needed
/// (that is, it either changes the active control of violating wells, or shuts
/// down wells). Only one change is applied per invocation. Typical use will be
/// \code
/// solve_pressure();
/// while(!wells.conditionsMet(...)) {
/// solve_pressure();
/// }
/// \endcode
/// \param[in] well_bhp A vector containing the bhp for each well. Is assumed
/// to be ordered the same way as the related Wells-struct.
/// \param[in] well_reservoirrates_phase
/// A vector containing reservoir rates by phase for each well.
/// Is assumed to be ordered the same way as the related Wells-struct,
/// with all phase rates of a single well adjacent in the array.
/// \param[in] well_surfacerates_phase
/// A vector containing surface rates by phase for each well.
/// Is assumed to be ordered the same way as the related Wells-struct,
/// with all phase rates of a single well adjacent in the array.
/// \return true if no violations were found, false otherwise (false also implies a change).
bool conditionsMet(const std::vector<double>& well_bhp,
const std::vector<double>& well_reservoirrates_phase,
const std::vector<double>& well_surfacerates_phase);
/// Applies explicit reinjection controls. This must be called at each timestep to be correct.
/// \param[in] well_reservoirrates_phase
/// A vector containing reservoir rates by phase for each well.
/// Is assumed to be ordered the same way as the related Wells-struct,
/// with all phase rates of a single well adjacent in the array.
/// \param[in] well_surfacerates_phase
/// A vector containing surface rates by phase for each well.
/// Is assumed to be ordered the same way as the related Wells-struct,
/// with all phase rates of a single well adjacent in the array.
void applyExplicitReinjectionControls(const std::vector<double>& well_reservoirrates_phase,
const std::vector<double>& well_surfacerates_phase);
private:
template<class CC, class C2F, class FC>
void init(const Opm::EclipseStateConstPtr eclipseState,
const size_t timeStep,
int num_cells,
const int* global_cell,
const int* cart_dims,
int dimensions,
CC begin_cell_centroids,
const C2F& cell_to_faces,
FC begin_face_centroids,
const double* permeability);
// Disable copying and assignment.
WellsManager(const WellsManager& other);
WellsManager& operator=(const WellsManager& other);
static void setupCompressedToCartesian(const int* global_cell, int number_of_cells, std::map<int,int>& cartesian_to_compressed );
void setupWellControls(std::vector<WellConstPtr>& wells, size_t timeStep,
std::vector<std::string>& well_names, const PhaseUsage& phaseUsage);
template<class C2F, class CC, class FC, class NTG>
void createWellsFromSpecs( std::vector<WellConstPtr>& wells, size_t timeStep,
const C2F& cell_to_faces,
const int* cart_dims,
FC begin_face_centroids,
CC begin_cell_centroids,
int dimensions,
std::vector<std::string>& well_names,
std::vector<WellData>& well_data,
std::map<std::string, int> & well_names_to_index,
const PhaseUsage& phaseUsage,
const std::map<int,int>& cartesian_to_compressed,
const double* permeability,
const NTG& ntg);
void addChildGroups(GroupTreeNodeConstPtr parentNode, ScheduleConstPtr schedule, size_t timeStep, const PhaseUsage& phaseUsage);
void setupGuideRates(std::vector<WellConstPtr>& wells, const size_t timeStep, std::vector<WellData>& well_data, std::map<std::string, int>& well_names_to_index);
// Data
Wells* w_;
WellCollection well_collection_;
};
} // namespace Opm
#include "WellsManager_impl.hpp"
#endif // OPM_WELLSMANAGER_HEADER_INCLUDED
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